US2621255A - Telephone system with cyclic route busy test - Google Patents

Description

Dec. 9, 1952 R. MERCER 2,621,255

TELEPHONE SYSTEM WITH CYCLIC ROUTE BUSY TEST Filed Jan. 7, 1949 8 Sheets-Sheet l TBS/5 I 51/2 cc H6. H6. H6

In venior RICHARD MERCER.

Attorney I). 9, 1952 R. MERCER 2,621,255

TELEPHONE SYSTEM WITH CYCLIC ROUTE BUSY TEST Filed Jan. 7. 19.49 8 Sheets-Sheet 2 Inventor RICHARD MERCER.

Attorney Dec. 9, 1952 R. MERCER 2,621,255

TELEPHONE SYSTEM WITH CYCLIC ROUTE BUSY TEST Filed Jan. 7, 1949 8 Sheets-Sheet 3 In venlor RICHARD MERCER.

film a 267 I [torn e y Dec. 9, 1952 R. MERCER 2,621,255

TELEPHONE SYSTEM WITH CYCLIC ROUTE BUSY TEST Filed Jan. '7, 1949 8 Sheets-Sheet 4 Inventor RICHARD MERCER WKW Attorney Dec. 9, 1952 R, ERC R 2,621,255

TELEPHONE SYSTEM WITH CYCLIC ROUTE BUSY TEST Filed Jan. 7. 1349 a Sheets-Sheet s In Jen i or RICHARD MERCER.

Q LW/KW Attorney Dec. 9, 1952 R. MERCER 2,621,255

I TELEPHONE SYSTEM WITH CYCLIC ROUTE BUSY TEST Filed Jan. 7, 1949 8 Sheets-Sheet 6 In ventor RICHARD MERCER.

A ttg FIEL- TELEPHONE SYSTEM WITH CYCLIC ROUTE BUSY TEST Filed Jan. 7, 1949 8 Sheets-Sheet 7 Ill QQQQ

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Inventor RICHARD MERCER.

Attorney Patented Dec. 9, 1952 FF CE TELEPHONE SYSTEM WITH CYCLIC ROUTE BUSY TEST Richard Mercer, London, England Application January 7, 1949, Serial No. 69,720

In Great Britain January 16, 1948 (CL use-n2 '7 Claims. 1

The, present invention concerns improvements in or relating to telephone systems and in par-o ticular to telephone systems in which multiposition switching devices are operated to set up a connection.

The expression multiposition switching device as used in this specification means an assembly of contact devices, electronic valves, triggered gas discharge tubes or other devices each individually capable of being selected to set up a connection, the operative elements of such a switching device being either adapted to take up different positions according to the selection to be effected or to be located in difierent positions to be selectively operated.

One form of multiposition switching device which is hereinafter referred to by the prefix word traversing includes a set of wipers or contact arms which are caused to travel to take up any of several positions and by engagement with or operation of a set of contacts in the position taken up perform the desired selection.

Another form of multiposition switching device which is hereinafter referred to by the prefix word static includes a plurality of operative elements located in various positions which are themselves selected in accordance with the selective action desired such as a set of relays or a cross bar switch the magnets of which are selected in accordance with the connection to be set up or a set of thermionic valves the grids of which are selected in accordance with the connection to be set up and the like. It is to be noted that while usually the components of a multiposition switching device form a unit assembly this is not essential in the case of a static multiposition switching device which includes a plurality of similar components where the linkage between components may be by electric conductors.

The principal obiect of the invention is the provision of a simplified s stem whereby the total number of switching positions in an exchange or network capable of handling a given volume of traffic can be appreciably reduced. The expression switching position applies to each position of amultiposition switch for instance, the number of contact sets and the total number may be reduced either by reducing the number of switching stages, the number of switching devices or the number of contact sets or their equivalent or combinations thereof.

According to one feature of the invention groups of multiposition switching devices are provided arranged in tandem forsetting up connections, an, idle route. including a multiposition switching device from each group is, first selected for thepurpose of setting up a desired connection and subsequently the multiposition switching de vicesv of the selected route' areoperated successively over control circuits extending from one multiposition switching device to the next over the. route selected.

According to another feature of the invention groups of multiposition switching devices are provided for setting up a connection which devices are arranged in such a way that a given connection may be set up over different routes each including a series of multiposition switch.- ing devices in tandem, means being provided for. selecting a route in which all the multiposition switching devices of the route are idle and subsequently operating said multiposition switching devices successively by controls predetermined for said connection whereby automatic hunting between switching stages is avoided.

According to a third featureof the invention the outlets of each multiposition switching device of a grop are connected to multiposition switching devices of a second group in such a way that a plurality of distinct routes including a multiposition switch of each group can be used to set up a given connection, means being provided for finding idle multiposition switching devices of each group which are adapted to set up said connection and thereafter operating said multiposition switching devices successively.

According to a fourth feature of the invention impulse responding equipment taken into use on the initiation of a call includes means for testing for an idle roi'te through multiposition switching devices in a plurality of groups in tandem whereby a desired connection may be set up and means which when an idle route is found establish connection to a multiposition switching device of one group over which the desired connection can be established and subsequently operating overthe connection established to said multiposition switching device the multiposition switching devices forming the idle route.

According toa fifth feature of the invention a plurality of groups of multiposition switching devices are arranged in tandem each group having a common lead which is marked in accordance with the idle or busy condition of each multiposition switching device of a group at distinctive instants in a cycle, control equipment being provided bywhich the desired connection is, to be extended comprising. means for selecting a common lead from each of the groups of multiposition switching devices over which the desired connection may be extended and means operating in response to the marking of said common leads to select an idle multiposition switching device of one group having access to an idle multiposition switching device of another grou or groups through which the desired connection may be extended and thereafter operating each multiposition switching device successively to extend the connection in the required direction.

According to a sixth feature of the invention test circuits for the multiposition switching devices used in setting up a connection are completed when sufiicient digits have been dialled to effect the setting up of a connection up to but not including the final stage of such switching devices.

According to a seventh feature of the invention a telecommunication system co prises a plurality of grou s of multi osition swiching devices arran ed in tandem and impulse responding equipments an idle one of which is adapted to be seized when a call is initiated said equi ments including means for storing the digits dialled by a calling party. means res onsive to certain of said digits to select a test lead or leads whereby the idle or busy conditions of each of a group or grou s of multiposition switching devices may be ascertained. means responsive to control over the selected test lea and a further test lead which serves to indicate the idle or busy condition of each of another rou of multi osition switching devices for selecting and establishing connection with an idle one of said other roup of multiposition switching devices which has access to an idle multiposition switching device or idle multiposition switching devices in tandem selected from said first mentioned group or groups and means for controlling the selected idle multiposition switch of said other group over said established connection to establish connection with the idle multiposition switch to which it has access and subsequently controlling over said established connection and over said idle multiposition switch of said other group said idle multiposition switch to which it has access.

According to an eighth feature of the invention a telecommunication system is provided in which on the initiation of a call impulse responding equipment is taken into use independently of multiposition switches used in extending a call, and in which after certain digits dialled by a calling party have been registered a test is made for idle multiposition switches which are connected in tandem and over which a desired call may be extended whereupon the idle multiposition switches are operated successively from said impulse responding equipment to set up the call and subsequently the calling line is connected to the first multiposition switch and the impulse respending equipment released.

The multiposition switching devices in accordance with the invention may be either of the motor driven or static types. In the arrangement described herein by way of example, the multiposition switching devices used for setting up a connection are of the traversing type while those used for selecting and establishing connection between the calling line and the impulse responding equipment and between the impulse responding equipment and the first multiposition switch of an idle route and between the calling line and the first multiposition switch of an idle route are of the static type.

condition of each of a number of switching devices of a group is conveniently of the static type.

These and other features of the invention will be better understood from the following description taken in conjunction with the accompanying drawings which show sufficient circuits of a telephone system according to the invention to enable the invention to be understood.

In the drawings:

Fig. 1 shows three subscribers line circuits, a diagrammatic representation of two of the impulse responders and a part of the third, as well as a part of a crossbar switch employed for associating a subscribers line with an impulse responder and a two-digit switch;

Fig. 2 shows a further part of the impulse responder partially shown by Fig. 1 and also a further part of the crossbar switch;

Fig. 3 shows the final part of the crossbar switch and a further part of a third impulse responder including part of a crossbar switch therein;

Fig. 4 shows the final part of the third impulse responder including the final part of the third crossbar switch and a two-digit switch which responds to the dialled impulses in addition to which there is shown a set of cams for generating cyclic pulses;

Fig. 5 shows three two-digit selectors;

Fig. 6 shows diagrammatically seven further two-digit selectors;

Fig. '7 shows diagrammatically two further twodigit selectors and four final selectors;

Fig. 3 diagrammatically represents six further final selectors; and

Fig. 9 shows the arrangement of each of Figs. 1 through 8 relative to each other for analysis.

Referring to Fig. l of the drawings, three subscribers lines are represented, namely No. 1111 representing the first line of the 1100 group, No. 1211 representing the first line of the 1200 group and 1511 representing the first line of the 1500 group. It is assumed that these are three of 10,000 lines connected to the exchange, each line being represented by four digits and the lines being numbered as is generally customary from 1111 to 0000. The lines are divided into line groups each of which groups has access to a group of two-digit selectors e. g. DSI IA-K, DSIZA-K, DS!5AK and it is assumed, by way of example, that there are 10 two-digit selectors in a group although this may be varied in accordance with the traflic.

The lines are further divided into groups of 500 lines each of which groups has access to three impulse responding equipments lREl, IRE2, lRES. The division of lines into and the size of the groups may be varied as desired and also the number of impulse responding equipments per group. Access is had from the individual lines to the impulse responding equipments IRE-l, iREZ, lRES and to the two-digit selectors DSI IA and so on by means of crossbar equipment. This crossbar equipment is only shown diagrammatically for convenience as units of very much larger size would be used in practice.

In this crossbar equipment the prefix PM is used to indicate the prepare magnet which is first operated to select a row of contacts in the crossbar equipment and the prefix HM is used to indicate the hold magnet which is operated subsequently and serves to select a particular set of contacts in theselected row, to effect the operation of such selected contacts and to hold such contacts operated independently of the prepare magnet which can then be used for another selection.

It will be noted that there are three hold magnets HMI, HM2, I-IM3 having suffixes corresponding to the suffixes of the impulse responding equipments IREI, IRE2, I RE3 to which they respectivelygive access, these hold magnets being individual to the 500 lines 1111 to 1500. Further there are hold vmagnetsI-IMI IA-HMI .IK having suiiixes corresponding to .the sufii-Xes of the twodigit switches DSI IA-DS! IK to which they respectively give access. The hold .magn'ets HM! IA-I-IMIIK serve the group of 100 lines whose numbers commence with the digit 11. Thereis one set of hold magnets for each 100 lines of which the hold magnets HM! ZA-HMI 2K serve the group of 100 lines whose numbers commence with the digit 12 and hold magnets HMIEA- HM I5K serve the group of 100 lines whose numbers commence with the digit 15.

Assume substation No.1111 initiates a call, a circuit, which is not shown in its entirety, is completed for LR! I I i which energises and at contact LR! connects earth to start lead SLII which is common to all substations, the first two digits of whose numbers is 11. For convenience lead SL! I is interrupted on the drawing but it is to be considered as joined to the corresponding lead extending to IREI and if IRE! is busy, it is extended by hold relay B! of IRE! to IRE2. Contacts B! I-BI6 only of relay B! are shown, the relay corresponding to B3 of IRES. If IRE2 is busy it is extended by hold relay B2 of IREZ to I RE3. Again contacts B2 I-BZii only of relay B2 are shown, the relay corresponding to B3 of IRE3.

For this description it will be assumed that IRE? is idle so that earth on SLI! is extended over back contact B3! to upper winding of relay P3, contact X32, relay X3 to battery. Relays P3 and X3 operate. Relay X3 at X32 completes a circuit foritself over contact P3! to SL! independent of upper winding of P3 while at X33 it closes a circuit for Y3 which operates and at Y32 closes a locking circuit for the lower winding of relay P3 which becomes effective before the opening of the circuit through the upper winding on the operation of X32. In addition relay X3 at X3! connects earth over chain circuit CC through front contacts B26 and BIii of busy impulse responsive equipments IREZ and !RE! and back contacts of all line relay contacts which are not operated and form part of CC, t the first operated contact which it is assumed isLRZ of relay 'LRIIII and thence to prepare magnet PMIIII and battery. Prepare magnet PMIIH thus operates. When relay Y3 operates as described above at contact Y32 it completes a circuit for hold magnet HR I3. I-IM3 operates and due to the prior operation of PM I I i I, crossbar contacts CBC! I IX3 are operated. Over the lower contact a circuit is completed from contact Y3! for cut-off relay CO: I II which at contacts CO! and CO2 opens the circuit of line relay LR! i I and connects substation No. 1111 through the upper contacts of CBC! I I IX3 to line relay A3 in impulse responding equipment IRE3. Relay A3 operates and at contact A3! completes a circuit for relay B3. Relay B3 operates and at contact B31 provides an alternative holding earth to that of contact Y3! for relay CO! I I I and hold magnet HMS. At contacts .B3!B35 it opens the circuits of the upperwi-ndings of .relaysP3 to T3 contacts CBC! I I IX3.

whichever has been operated (in this case P3) and if a fourth impulse responding equipment was employed it would extend the start leads SLII to SLI5 incoming to IRES to such equipment. At contact B36 it opens the circuit of PM! I! which releases without however affecting the operated Relay P3 is maintained energised over its lower winding, contact P32 and contact B38 to earth. At contact 183! the circuit for the upper winding of relay P3 and of relay X3 is opened. Relay X3 deenergises and opens circuit of relay Y which releases. If a call had originated in any of subscribers line groups 1211-1200, 1311-1300, 1411-1400, 1511-1500 then the corresponding one of the relays Q3, R3, S3, T3 would have been operated. Otherwise the circuit operations would have corresponded exactly to those described with referenceto relay P3.

It will be appreciated that all these operations have taken place in a very short interval of time so that even if another call had originated in the interval so that it might seize the equipment whose selection had first been efiected by line IIII, the next idle equipment would almost immediately have become available for line IIII. Dial tone is conveniently connected in the usual Way by a contact of B3 (not shown) and subsequently removed when dialling commences for instance, by oil-normal contacts of the two-digit switch D83. The subscriber now commences to dial. Relay A responds to each series of impulses and at back contact A3! impulses are sent via operated contact B39 and lead IL3 to an impulse regenerator DR3 preferably of the type described in British Patent No. 458,095 corresponding to United States Letters Patent No. 2,188,461, granted January 30, 19 0, and through relay C3, back contact of relay D3 to vertical magnet VM3 of two-digit switch BS3. The series of impulses is stored in DR3 and VM3 steps the wipers oi D53 to a level corresponding to the digit dialled.

Relay C3 in operating completes a circuit for the lower winding of ID3 which operates sufficiently to close its X contacts only. At the end of the series of impulses when C3 releases the two windings of I133 operate in series from hold lead H113 and all the contacts of ID3 operate. The neXt series of impulses then pass over IL3, relay C3, contacts of ID3 and 2B3 to the rotary magnet RM3. ihe wipers of D83 are thus set to a position corresponding to the first and second digits dialed. As examples the contacts representing 11, 22, 33, 44, 55 are shown and are connected up to test leads TL! 5, T1122, TL33, TLM, TL55 which give the busy or idle condition of all the final selectors of the groups having the first two digits 11, 2'2, 33, 44 or 55 respectively. Relay C3 operates for the duration of the second series of impulses whereby 2D3 partially operates to close its X contacts. When C3 releases 2D3 operates fully, opening the circuit of EMS so that the third and fourth digits only affect DB3 where they are stored until required. Relay 2133 is held energised from H13 and connects up wiper W3 and test lead TDS3 to common operate lead 0013 for the crossbar switch CB3 in the impulse responder 1R3, the connections including rectifiers REA and R33 respectively for a purpose to be described later. Finally relay 2133 at its lower outer contacts applies earth to lead PPML which extends over contacts P33 to prepare magnet PPM3 of the crossbar switch C1353. This magnet therefore operates.

Referring toFigs. 7 and-8 it will be noted that each of the final selectors FSI lA-FSHK, FSZZA-FSZZK, FS33A-FS33K, FSddA-FSMK, FS55A-FS55K is represented by a rectangle and includes a relay representing the hold relay of the final selector which is maintained operated whenever the final selector is in use.

The final selectors may be of any known type which respond to the two final digits and have battery feeding facilities, except that they are provided with an additional contact set on the hold relay which is shown together with its connections.

Each of the fixed contacts of the sets are connected to bus-bar leads from the bus-bar cable EC common to the exchange and comprising as many conductors of negligible resistance as there are final selectors in a group. In the case illustrated this is 10 indicated by the suffixes A-K.

Referring to Fig. 4 it will be seen that there are ten leads marked respectively AE-KE forming part of a cable EC which may be traced over the various figures for the purpose of enabling connections to be made as described hereinafter to each of the two-digit selectors and to each of the final selectors the connections being such that the lead and switch connected together have the same reference letter as the reference letters A-K associated with their designations. A common driven set of cams AC-KC are arranged to close associated contacts at instants in a cycle when no other associated contacts are closed. For instance in the drawing AC is shown at an instant when earth is connected to lead AE. Shortly after, the associated contacts open to remove earth from AE and cam BC becomes effective to close the associated contacts and apply earth to load BE. When these contacts open and earth is removed from BE, contacts associated with CC close and earth is connected to CE and so on until earth is connected to KE. When earth is removed from KE, earth is connected again to AE and so the connections are repeated cyclically. The motor driving the cams can be operated continuously or have its motion initiated on a call. Instead of cam driven interrupters, a chain of relays may be employed arranged to operate successively in a cycle. As regards reliability of operation speed is immaterial provided the contacts are closed long enough to permit operation of a relay, say 20 milliseconds, to leave a reasonable margin of safety.

It will be noted that the cable EC extends to Fig. 8 where it forks, one branch extending through Figs. 7, 6 and to illustrate the manner in which connections are made to the two-digit selectors. In Fig. 5 lead AE is shown extended to switches DSi IA, DSI2A, DSiSA so that when the hold relay of any of these switches is operated an intermittent earth is connected to the test lead for all two-digit switches associated with a particular group of lines. For instance, if hold relay B! !A of switch DSI IA is operated, earth is connected at an instant of time of the cycle of the cams which may be referred to as instant A, to lead TDSH which is common to all the two-digit switches associated with the group of lines having the initial digits 11. Similarly if either hold relay BIZA or 315A is operated then earth is connected to test leads TDSi2, TDSi5 respectively at instants A in the cycle. On the other hand if any of the twodigit switches DSI IE to DSI [K is operated then the hold relays of these switches will connect up leads BE to KE respectively to test lead TDSI I so that at instants B to K respectively in the cycle, earth is connected up to 'IDSI I. For convenience in switches DSHB-DSHK in Figs. 6 and 7 only the contacts of the respective hold relays are shown, the circuits of each of these switches being otherwise identical with that of DSHA shown in full in Fig. 5 Similarly the operation of the hold relays of any of the switches DSIZB-DSIZK will cause a corresponding one of the leads BE-KE to be connected to test lead TDSI2 and the operation of any of the hold relays of any of the switches DSI5B-DSI5K will cause a corresponding one of the leads BE to KE to be connected to test lead TDSIS.

As switches DSI I, D812 and D515 only illustrate by way of example all the two-digit switches in the exchange of say 10,000 lines, it will be appreciated that connections similar to those described above are made to every two-digit switch in the exchange.

The other branch of EC extends to the final selector switches FSHA-FSHK, FSZZA-FS22K, FS33A-FS33K, FSMA-FSMK, FS55A-FS55K. The hold relays of these final selector switches are provided with an extra contact over which connections similar to those described with reference to the two-digit selectors, are completed when the hold relay is operated. Thus AE is connected up to test leads TLH, TL22, TL33, TLM, TL55 if any of th final selectors FSI IA, FSZZA, FSSSA, FSMA, FSSEA respectively (1. e. any final selector having the sufiix A) is busy; BE is connected to the same test leads if any one of the final selectors PS1 [3, FS22B, FS33B, FSMB, FS55B is busy and so on. Another branch of EC extends to the hold magnets of crossbar switch CBS3 for a purpose to be explained later.

The switching arrangements according to the present invention are such that two-digit switches having the sumx A have access only to final selectors having the sufiix A, two-digit switches having the suffix B have access only to final selectors having the suffix B and so on. Consequently a call from any subscriber has a choice of as many distinct routes as it ha access to two-digit switches each of which routes is indicated by the sufiix letters A-K while the number may be increased according to trafiic requirements. In the cas of unequal distribution of traffic it is possible to arrange that two-digit selectors accessible from different groups of lines may have access to different sets of final selectors or that final selectors of a group may be accessible from different sets of group selectors. For instance, if the traffic for group 1100 was very light then the number of two-digit switches from that group may be reduced, say to A-G, while if traffic to other groups was also light then the number of two-digit switches from those groups may be arranged also to use only part of the groups A-K so that trafiic is distributed. Similarly if the trafic to group 1100 was light the number of final selectors could be reduced and if reduced to routes A to G then reductions of final selectors in other groups where possible would be so arranged as to distribute the reduced trafiic over the whole of the routes.

It is not felt desirable in the present description to do more than indicate the various possibilities as the invention will be better understood by referring to the specific examples illustrated in which the trafi'ic is assumed to be fairly equally distributed to each line group.

Referring to Fig. 1 it will be seen that crossbar 9 contacts CBCHA give access to a cable DSIIA extending to Fig. to the two-digit switch having the same reference DSI'IA. Switch DSI-IA is shown as having five sets of contacts, namely those representing the pairs of digit 1, l; 2, 2; 4; 5, 5-. Each set of contacts is shown connected to a cable, contact H being connected to cable HA, contact 22 to cable 22A, contact 33 tocable 33A, contact at to cable AAA and contact 55 to cable 55A. These cables extend over Fig. 6 to Fig. 7 where they terminate on final selectors FS I IA, FSZ 2A, FS33A, FSMA, FS55A respectively. Similar cables may be traced from CBC! [B to CBCI IK except that for clearness the cables NIB-55B, tic-55C and so on are broken-oil on Figs. 6 and '7 and'continueon the-right of Fig. 7.

Again similar cables may be traced from CBClZA and CBC-I SA- and othercrossbar contacts in which the suflix letters are changedbut in this case the cables DS I EA and DSi 5A and so on are also broken on Figs. 2 and 3 and resumed again on Figs. 6, 7 and 8.

Resuming the description of setting up a call, it will be assumed that the number called is 1167, so thatthe wiper of. D83 restson contact II after the first two digitsare dialled. Consequently test lead TLII is connected up to COL through REA when relay 2B3 operatesfullyso that earth is connected to COLat any of the instants A-Kcorresponding .to those switches ESI.!A.K which are busy. lest lead TESS isconnected upatPSAl to test lead .TDS! i. It is to be notedzthat relayP operated overSLl because the call. originated in roupv 1-100. Iiit. hadoriginated. in group. 12 or 13, 14 or 15 relays Q, R, .S or T respectively would, havebeen operated and test leads TDSlZ, 13, IA or i5 respectively would have beenconnected up. Earth is thus transmitted over test lead II to COL. at anyof the instants .A-K corresponding to thoseswitches DSI lA-K which are busy.

Referring now to the crossbar switch CBS3 it will be noted that there are five prepare magnets PPMS, QPM3, BPMS, SPMS, TPMB corresponding to each of the relays S and '1 respectively and dependent upon which of the relays P, Q, R, S or T are operated. The circuit for their operation may be raced from earth, contact of 2D3 cverlead PML, via an operatedcontact of one of the relays P, Q, R, S and, T such as P33 to the corresponding one of; the prep-are magnets PPM3, QPM3, EPA/l3, SPAM, or TPM3. As previously described prepare magnetPPMS is operated in the call under consideration. The crossbar switch CBS3 also has ten hold; magnets I-IM3A-K and gives access to the switches DSI IA-K. DSIZA-K DSJBA-K, DSMA-K, DSI 5A-K over the cables shownhavlng the same references.

Referring to the hold magnets HMSA-K it will be noted that the right-hand winding of each magnet is connected at one terminal to a corresponding one ofthe leads AE-KE of-the cable EC, while the other terminal is connected over a back contact of the corresponding magnet to lead COL3. Battery via resistance R3 and contacts of 2D3 and CR3 is connected to COLS. At the instant A in the cam cycle it will be seen that earth is connected over AE, right-hand winding of HM3A, back contact of HMSA, lead COL3, contactof CR3 and 2D3, resistance R3 to battery. Magnet HM3A would operate to'close its X contact provided that there is no earth connected to COL via unidirectional resistances 33A or R3B..from-DSI IA and FSI IA due to either of these switches being busy. At instant B similar circuit conditions become effective for magnet HMSB which will operate unless either of the switches DSI-IB and FSI-IB are busy andso on for instants C to K. In the present case it may be assumed that DSI lA and F31 IAare'both free and magnet HM3A closes its X contact and completes a circuit for its left-hand windingirom earth on 'HL3 from relay B3 through the X contact and left-hand winding ofmagnet I-IMtA in series with relay CR3 to battery. Magnet I-IMSA operates fully as also does relay CR3. Relay CR3 opens the connection of bat-- tery to COL to prevent operation of any other of the magnets I-lMtB-K. HMS-A in conjunction with PPM3 closes the crossbar contacts connecting the output impulse leads O-IL3 to the speaking leads of DSI-lA (see Fig. 5) and also connects the hold lead I-lL3 to the hold lead of DSI'IA.

It is important to preventeither BS HA and FSI IA being seized from other impulse responding equipments during subsequent testing cycles and to'ensure thisthe operation of magnet H-MBA over its extreme right-hand contacts connects lead AEto the side of R3A and B3B respectively remote from COLS- so that at the instant A earth isplaced onleads TDSII- and TLIl by HMS-A to give a busy test toother impulseresponders although the hold relay; of switches DSI-I'A and FSI-IA may not yethave operated. Mag-net HMSB would, of course, similarly-connect up BE if switches DSHB and -FSIIB had been'selected and soon. Th result is that immediately HMZBA is operated; DS-I-IA and FS-HA are busied and remain busied from the impulse responding equipment as long as this is in use when the busying function is completelytalgen over by the switches-themselvesin the usual way.

When it is known that switches DSI IA and FSII-A are free, the impulse'regenerator DB3- can begin to'send out impulses. This is initiated on the operation of relay CR3 which completes an obvious circuit to theirnpulse-regenerator; The eifect of the closing-of this'circuit istocomplete a loop in DB3 across the outgoingimpulse conductors OILt which loopis extended over contacts DSI-IA of the crossbar switch CBSS; cable DSI IA to switch DSI-I-A (Fig. 5) and thenceover back contacts of relay 2DHA to'relay'AI'I'A. Relay AIIA operates and completesa circuit'for Bl IA which energises andprepares'an'impulsing circuit which, when AHA releases onreceipt of impulses from the impulse regenerator DB3-,is completed through CI IA, back contact of IDIIA to vertical magnet VMSA. Asa resultth wipers of DSI IA are stepped to a level corresponding to the first digit while CI IAcloses a circuit whichcauses lDI l'A to close-its X contacts.

At the end of the first series of impulsesrela-y CI IA releases to enable IDI-IA to operatefully from earth on hold conductor, backcontact of .ZDI IA and its X contact. Thei-mpulsing circuit is thereby transferred to-the rotary magnet RM3A which responds to the second digit 'from DR3- while due to the reoperation of Cl I-A, relay ZDIIA is partially operated-to close its X con-- tacts. The wipers of DSI IA are now set-to a position corresponding tothe first and second} digits in this case 11, and as ZDIlA is Iully'operated' on completion of the second series of impulses, the circuit from IRES istransferred to the switch FSI IA connectedto contacts I I of switch'DsIjlA.

The next two digits from DB3 arecaused to operate the final selector switch FS'l1IA. in knownv manner. As previously explained, the circuits of the final selector can follow any-known design and may be P. B. X final selector or regular final selectors as circumstances may indicate. It is also assumed that the final selector circuit includes battery feeding for calling and called subscribers and also means for testing idle or busy conditions and for giving ringing or busy signal accordingly. It is not necessary to describe a circuit of a nnal selector in detail as there is nothing necessarily novel therein except the additional contact on the B relay.

When the impulse regenerator has sent out the last series of impulses relay OCR3 is operated. OCR3 on operating connects booster batteny in place of earth on the hold conductor extending back through contacts B37, CBCHIIXS to non-linear resistor NLRHH, prepare magnet PMIIH to battery. Booster battery has no effect on COllll except to increase the holding current. that it has a high resistance under normal condition as PM! I ll cannot operate with earth on the hold wire nor can it be held operated, but when booster battery is connected to the hold wire the resistance falls to a low value to enable PMHH to operate. PMIHI on operating not only performs the usual function of a prepare magnet but also connects battery through a resistance to a lead common to the hundred line group to which PMHH belongs and thence in common to the magnets HM! lA-K. As the hold wire of each of the switches DSliA-K is connected to the corresponding magnet HMIiA-K it follows that any of the magnets HMI lA-K connected to an earthed hold wire will operate and lock operated independent of the battery fed from the PM! I ll contact. In this case HMi 1A will operate and cause in con unction with PM! I l l, the closure of crossbar contacts CBC! IA whereby the calling subscriber is connected direct to DSHA and thence to FSHA. In addition, relay OCR3 in operating removes earth from A3| to cause B3 to release shortly after. When B3 releases, HM3 is released together with relay P and other relays and magnets which are locked to the hold conductor HL3. Consequently IRE3 is restored to normal in readiness for another call.

The following additional features not illustrated in the circuits could be provided to meet various contingencies as may arise. Firstly if a subscriber delays to dial or to complete dialling, a timing device set in operation on seizure of an impulse responding equipment could establish circuit conditions at the end of a given time after seizure to cause the calling subscriber to be switched oil so as to make the impulse responding equipment available for other calls. For instance, it may be switched over by an additional crossbar contact and hold magnet like I-IMI lA-K. Secondly if it is desired to safeguard against two simultaneous operations for selecting a pair of DS and FS switches, the battery feed on which the selecting operation is effective may be fed through a chain circuit common to all the impulse responding equipments in an exchange and controlled by the respective relays corresponding to 2D3 and CR3 in each equipment, so that only one operation can take place at a time. The delay if any would be very short indeed.

Thirdly if it is desired to safeguard against the simultaneous operation of a hold magnet individual to an impulse responding equipment such as HMI, HMZ, HM3 and a hold magnet corresponding to a two-digit switch such as ,HMI 1AK, HMIZA-K, HMISA-K due to the dif- Non-linear resistor NLRHH is such ferent operations of prepare magnets, this can be done for instance by making the operation of a magnet HMi, HM2, HM3 common to a group of subscribers (in this case 500) dependent upon the non-operation of a relay equivalent to OCR3 in any impulse responding equipment of the group.

The release of a connection takes place when the calling subscriber replaces his receiver whereupon the impulse-responding relay in the final selector releases followed by the hold relay. The hold relay disconnects earth from the P wire as a result of which relay 2D! IA in the two-digit selector DSI IA releases and closes a circuit for the release magnet ZMSA over operated oilnormal contacts N. The disconnection of earth from the P wire also causes the release of the hold magnet HMI IA and the cut off relay CO! I H and the equipment is released.

It will be appreciated that two directional or two-digit switches have been described to illustrate the principles of the invention but the invention is not to be construed as limited thereto. For instance instead of the two-digit switches described, two separate switches each responsive to a digit and having ten positions only instead of 100 could be used. Such switches would be arranged similarly to the arrangement described in connection with the two-digit switches and the final selectors and in order to determine an idle through route it would be necessary to have the two directional switch in the impulse responder connect up to a lead corresponding to the first digit dialled to ascertain which of the outlets of the various first digit switches corresponding to the first digit were available as well as a lead corresponding to the first two digits dialled which is similar to that described to indicate which of the final selectors corresponding to the first two digits dialled are available.

It will be appreciated that this can readily be attained by providing an extra wiper and bank of contacts on the two directional switch and the impulse responder and connecting the wiper through a unidirectional resistor to the common lead COL. The means of indicating the idle or busy condition of switches associated with the lead selected by the extra wiper would be similar to that described in connection with the final selectors.

It is also to be observed that if the single wiper switch associated with the impulse responding equipment was replaced by one having several wipers and means such as a single digit switch or a chain of counting relays were provided for selecting any one of such wipers in response to another digit, then a circuit could be established from a single unidirectional resistance connected to COL to any contact of the two directional switch in response to three digits, one digit to select a Wiper and two digits to select a contact in the bank of the selected wiper. Then if test leads were selectable for the single digit switch for groups of single digit switches in the main train as well as from each contact in the two directional switch, it would be possible to adapt the system described to a five instead of a four digit numbering scheme. The single digit switches might precede the two-digit switches in the main train and could serve as junction line selectors, the junction lines like the final selectors being arranged in groups, one junction line being individual to each route. If desired as described in connection with final selectors the two junctions may be allocated to a certain route or 1 3 one junction to two routes or other combinations to meet trafiic requirements.

It will be noted that leads from the bus-bars AE to KE are arranged to pass through unidirectional resistances or rectifiers so as to avoid any of the bus-bars being supplied with potential from another bus-bar through a common lead. Such rectifiers are essential wherever there is more than one connection to be set up but other means could be provided such as individual contacts on the common interrupters for each connection which is likely to be required to be set up.

I claim:

1. A telecommunication system comprising a calling line, a called line, a first first-stage numerical non-hunting multiposition switching device accessible to said calling line, a second firststage non-hunting multiposition switching device also accessible to said callin line, a first final-stage numerical non-hunting multiposition switching device accessible to said first first-stage multiposition switching device but not to said second first-stage switching device and giving access to said called line, a second final-stage numerical non-hunting multiposition switching device accessible to said second first-stage multiposition switching device and not to said first firststage switching device and givin access to said called line, a first conductor common to each of said first-stage switching devices, a plurality of second conductors common to each of said finalstage switching devices, called line designationregister means, means for seizing said register means on the initiation of a call on said calling line, a selecting means associated with said register means for selecting one of said second conductors, a cyclic impulse generator by which potential is made available at distinctive instants in a cycle to said conductors, means controlled by each of said first switching devices when busy to cause potential made available at one instant in a cycle by said cyclic generator to be applied to said first conductor, means controlled by each of said first-stage switching devices when busy to cause potential made available at another instant in a cycle by said cyclic generator to be applied to one of said second conductors, a static multiposition switching device whose operation is controlled by potentials applied to said conductors one of which is connected to said static-switching device by said register means and the other of which is connected thereto independently to select an idle first-stage switching device having access to an idle final-stage switching device and means also associated with said designation register means for efiecting the operation of the selected firstand final-stage switching device to establish a connection between the callin and called lines.

2. In a telecommunication system, a calling line, a called line connected to an exchange, a first plurality of numerical non-hunting multiposition switching devices forming a first switching stage accessible to said calling line, a second plurality of numerical non-hunting multiposition switching devices forming a second switching stage having access to said called line, a first connecting means by which outlets, corresponding to part of the designation of the called line, of each switching device of the first switching stage are given access to a distinctive switching device of the second switching stage thereby forming a plurality of routes each including a switching device of the first stage and a switching device of the second stage by which connections may be set up from the calling to the called line, a first test lead common to switching devices cf the first switching stage in each of said routes, a second test lead common to switching devices of the second stage in each of said routes, a source of potential, cyclic impulse generating means, a plurality of leads corresponding in number to said routes to each of which said source of potential is connected by said cyclic means at an instant in a cycle characterizing the route to which the lead corresponds, a first switching means individual to each of said switching devices of the first stage which connect that one of said plurality of leads to the first test lead at times when the switching device to which it is individual is busy, a second switching means individual to each of said switching devices of the second stage which connect that one of said plurality of leads to the second test lead at times when the switching device to which it is individual is busy, a static multiposition switching device, impulse responding means operable from the calling line to register the designation of a called line and including selecting means by which the second test lead corresponding to part of the designation of the called line is connected to said static multiposition switching device, a second connecting means by which the first test lead is connected to said static switching device, a third connecting means by which said plurality ofleads are connected to said static multiposition switching device, operating means for said static mult position switching device which in dependence upon the potential applied to said first and sec-- 0nd test leads selects a route over which switching devices of both the first and second stage are idle and switch controlling means for operating the switching devices on the selected route and completing the connection between the calling and called lines.

3. In a telecommunication system, a first calling line, a second calling line, and a called line connected to an exchange, a first plurality of numerical non-hunting multiposition switching devices forming a first switching stage accessible to said first calling line, a second plurality of numerical non-hunting multiposition switching devices also forming a first switching stage accessible to said second calling line, a third plurality of numerical non-hunting multiposition switching devices forming a second switching stage having access to said called line, a first connecting means by which outlets corresponding to part of the designation of the called line of each switching device of the first switching stage are given access to a distinctive switching device or the second stage thereby forming a plurality of routes each including a switching device of each of said pluralities of the first stage and a switching device of the second stage by which connections may be set up from the calling to the called line, impulse responding means operable from the calling line to register the designation of a calling line, idle-and-busy condition testing means for the switching devices in each route controlled from the calling line in dependence upon the calling line and part of the'designation of the called line as determined by said impulse responding means, route selecting means controlled by said idle-and-busy condition testing means to select a route in which a switching device of the plurality to which the calling line has access and a switching device of the plurality having access to the called line are both idle and switch controlling means for operating the switching devices on the selected route and completing the connection between the calling and called lines.

4. An arrangement for use in a telecommunication system, as claimed in claim 3 in which each multiposition switching device of the first stage has only a single outlet connected to multiposition switching devices of the second stage having access to a given called line.

5. In a telecommunication system a first calling line, a second calling line, a third calling line, a plurality of called lines arranged in groups connected to an exchange, a first plurality of numerical non-hunting multiposition switching devices forming a first switching stage accessible to said first calling line, a second plurality of numerical non-hunting multiposition switching devices forming a first switching stage accessible to said second calling line, a third plurality of numerical non-hunting multiposition switching devices forming a first switching stage accessible to said third calling line, a fourth plurality of numerical non-hunting multiposition switching devices forming a second switching stage having access to one group of called lines, a fifth plurality of numerical non-hunting multiposition switching devices forming a second switching stage having access to a different group of called lines, a first connecting means by which outlets corresponding to part of the designation of the called line of each switching device of the first stage are given access to a distinctive switching device of the second stage thereby forming a number of routes each including a switching device of the first stage and a switching device of the second stage by which connections may be set up from a calling to a called line, impulse responding means operable from the calling line to register the designation of a called line, idle-and-busy condition testing means for the switching devices in each route controlled from the calling line in dependence upon the calling line and part of the designation of the called line so determined by said impulse responding means, route selecting means controlled by said idle-and-busy condition testing means to select a route in which a switching device of the plurality to which the calling line has access and a switching device of the plurality having access to the called line are both idle and switch controlling means for operating the switching devices on the selected route and completing the connection between the calling and called lines.

6. In a telecommunication system, a plurality of calling lines connected to an exchange and arranged in groups, a plurality of called lines, a

' plurality of groups of first stage numerical nonhunting multiposition switching devices to each of which groups a group of calling lines has ac cess, multipled connecting means by which each outlet of each switching device of one group is connected to a single corresponding outlet in each corresponding switching device of the other groups, thereby forming a plurality of routes corresponding to the number of switching devices in a group, later stage multiposition switching devices connected individually to each of said multipled outlets, impulse responding mean-s operated from a calling line to register the designation of a called line, means for testing for the idle-and-busy condition of those multiposition switching devices in each route by which the connection can be set up to the called line as designated by said impulse responding means, switching means under control of said testing means by which the calling line is connected to a firststage multiposition switching device of a route which has been found to be available to set up the desired connections and operating means for controlling successively the operation of said firstand later-stage multiposition switching devices allocated to the route selected to set up a connection to the desired called line.

7. In a telecommunication system, a first calling line, a second calling line, a third calling line connected to an exchange, a plurality of called lines, a first plurality of numerical non-hunting multiposition switching devices forming a first switching stage accessible to said first calling line, a second plurality of numerical non-hunting multiposition switching devices forming a first switching stage accessible to said second calling line, a third plurality of numerical nonhunting multiposition switching devices forming a first switching stage accessible to said third calling line, further pluralities of numerical non-hunting multiposition switching devices forming a second switching stage having access to said called lines, a first connecting means by which outlets corresponding to part of the designation of a called line of each switching device of the first stage have access to a distinctive switching device of the second stage thereby forming a plurality of routes each including a switching device of the first stage and a switching device of the second stage by which connections may be set up from a calling to a called line, idle-and-busy condition testing means for ascertaining the condition of each multiposition switching device of the first stage to which the calling line has access and each multiposition switching device of the second stage to which the called line has access, a crossbar switch having a number of prepare magnets and a number of hold magnets, impulse responding means operable from the calling line to register the designation of a called line and including selecting means, a connecting means by which the magnets of the crossbar switch are controlled by said condition testing means as selected by the selecting means to determine a route including a switching device of the first and second stages accessible from the calling line, and switch controlling means for operating the switching devices on the selected route and completing the connection between the calling and called lines.

RICHARD MERCER.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,752,500 Munchenhagen Apr. 1, 1930 1,798,495 Radke Mar. 31, 1931 1,901,177 Levy Mar. 14, 1933

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